Programplaner og emneplaner - Student
MOKV3400 Production for streaming and web-TV Course description
- Course name in Norwegian
- Produksjon for streaming og nett-tv
- Study programme
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Bachelor Programme in Media and CommunicationBachelor Programme in Journalism
- Weight
- 15.0 ECTS
- Year of study
- 2025/2026
- Curriculum
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FALL 2025
- Schedule
- Programme description
- Course history
-
Introduction
Ingen forkunnskapskrav.
Bachelorstudiet i medier og kommunikasjon har generelle progresjonsbestemmelser.
Required preliminary courses
After completing the course, the student is expected to have achieved the following learning outcomes defined in terms of knowledge, skills and general competence:
Knowledge
The student is capable of:
- explaining the concepts of analytic function, ordinary, singular and regular singular points
- using series to solve differential equations
- defining the Laplace transform and derive it's basic properties
- explaining what characterize Fourier series and how they can be used to solve ordinary and partial differential equations
- recognizing and understanding concepts of complex functions
- giving examples of elliptical, parabolic and hyperbolic partial differential equations and how they are solved
Skills
The student is capable of:
- solving higher order linear differential equations with constant coefficients
- using power series and Frobenius series to solve second order linear differential equations with variable coefficients
- manipulate functions of complex variables
- using the Laplace transform to solve non-homogeneous linear differential equations modelling oscillating systems
- determining the Fourier sine series and the Fourier cosine series of symmetrical expansions of non-periodic functions
- solving boundary value problems relating to partial differential equations in closed domains by separation of variables
General competence
The student:
- has acquired good skills in solving ordinary and partial differential equations
- utilizing complex analysis techniques to solve partial differential equations, related to electrical engineering, acoustic and heat transfer
Learning outcomes
None.
Teaching and learning methods
The following coursework is compulsory and must be approved before the student can take the exam:
- Two individual written assignments (1-10 pages each), which correspond to a total of approximately 15 hours of work.
- One project assignment in groups, 1-5 students per group, which corresponds to approximately 10 hours of work per student.
Course requirements
Individual written exam, 3 hours
The exam result can be appealed.
In the event of a resit or rescheduled exam, oral examination may be used instead of written. If oral exams are used for resit and rescheduled exams, the exam result cannot be appealed.
Assessment
Individual written exam, 3 hours.
The exam result can be appealed.
Permitted exam materials and equipment
A handheld calculator that cannot be used for wireless communication or to perform symbolic calculations. If the calculator's internal memory can store data, the memory must be deleted before the exam. Random checks may be carried out.
Grading scale
Grade scale A-F.
Examiners
One internal examiner. External examiners are used regularly.
Course contact person
Ariana Guilherme Fernandes